EP2597541A2 - Method for managing the synchronisation of a distributed system for recording time-stamped events - Google Patents

Abstract

The method involves providing a local clock that presents local time, and a reference clock that provides reference hour (Tref). A last time stamp is associated with a recording event during synchronization of the local clock with the reference clock. A time stamping hour is calculated for a set of recordings if a new synchronized local time is equal to the last time stamp, or if the value of the new synchronized local time is higher than the last time stamp. An independent claim is also included for a distributed stamped events recording system.

Description

Technical field of the invention

The present invention relates to systems having time-stamped event recording devices and, more specifically, relates to the management of synchronization of these devices on a reference clock.

State of the art

In a known manner, in complex systems comprising distributed recording means of locally time-stamped events, it is in general necessary to synchronize the local time-stamping means on a reference clock at regular intervals. Indeed, the distributed recording means of locally timestamped events each include a local clock; local clocks are not in principle perfectly synchronous, they must be regularly resynchronized on the reference time given by a reference clock.

So, for example, the document US20110066598A1 describes a time synchronization system directly or indirectly synchronized to the GPS time, that is to say the universal time given by the GPS satellite navigation system, for Global Positionning System according to the acronym, and contained in the messages GPS satellites of the constellation GPS broadcast at regular intervals.

The document EP11263341A1 also describes a system comprising distributed time stamping and time stamped event recording means, said time stamped and timestamped event recording means being regularly synchronized to the GPS time.

The major drawback related to the known systems lies in the fact that they are not able to ensure the consistency of the chronological order in which the time stamped events are recorded during a synchronization of local time stamping means.

Indeed, the local means of time stamping include local clocks giving a local time. If, during a synchronization of said local clocks on the reference clock, one of the local clocks is "in advance" on the reference clock, the time-stamped event records after synchronization can be performed with a time stamp earlier than that associated with events that occurred before said synchronization.

The object of the invention is thus to solve this problem and to propose a system having timestamped event recording devices which are able, in an autonomous manner, to record in chronological order the time stamped events, including during synchronization of local time stamping means, and even when their local clock was ahead of the reference clock before synchronization.

Presentation of the invention

• une horloge locale présentant une heure locale propre ;
• une horloge de référence présentant une heure de référence,

un dernier temps d'horodatage étant associé au dernier enregistrement d'un événement.For this purpose, the invention consists in a method for managing the synchronization of a distributed time-stamped event recording system at a given frequency corresponding to a cycle time, comprising:

• a local clock with a clean local time;
• a reference clock having a reference time,

a last timestamp time being associated with the last record of an event.

• si la nouvelle heure locale synchronisée est inférieure au dernier temps d'horodatage, l'heure utilisée comme temps d'horodatage pour le prochain enregistrement d'événement est égale au dernier temps d'horodatage augmenté d'un pas d'incrément inférieur au temps de cycle, jusqu'à ce que la nouvelle heure locale soit supérieure ou égale audit dernier temps d'horodatage ; puis, l'heure utilisée comme temps d'horodatage pour les enregistrements d'événements suivants est égale à la nouvelle heure locale ;
• si la nouvelle heure locale synchronisée est supérieure ou égale au dernier temps d'horodatage, l'heure utilisée comme temps d'horodatage pour les prochains enregistrements d'événements est égale à la nouvelle heure locale.

The method according to the invention is characterized in that, during a synchronization of said local clock on said reference clock, said own local time becoming a new local time equal to the reference time:

• if the new synchronized local time is less than the last timestamp time, the time used as the timestamp time for the next event record is equal to the last timestamp time increased by one increment step less than the time cycle, until the new local time is greater than or equal to said last time of time stamping; then, the time used as the time stamp time for the following event records is equal to the new local time;
• if the new synchronized local time is greater than or equal to the last timestamp time, the time used as the timestamp time for the next event records is equal to the new local time.

The increment step may for example be equal to one millisecond.

The cycle time may for example be equal to five milliseconds.

Advantageously, the step of increment can correspond to the resolution of the local clock proper.

It is recalled here that the term "resolution" of the local clock owns the smallest fraction of time that said own local clock is able to measure.

The invention also consists of a system comprising at least one time-stamped event recording device comprising a local clock, said system comprising a reference clock, as well as means for synchronizing said local clock on said reference clock, said clock system according to the invention comprising means for implementing the method described above.

Advantageously, said system is also connected to a time server SNTP, for Simple Network Time Protocol according to the usual English acronym, synchronized to the GPS time, that is to say the time given by the satellite navigation system GPS, and the reference clock shows the GPS time as the reference time.

Advantageously, the system may alternatively comprise means for receiving GPS messages, that is to say messages transmitted by the GPS satellite navigation system, and means for decoding these GPS messages to extract the GPS time, the reference clock presenting the GPS time as the reference time.

Advantageously, the system according to the invention may comprise a plurality of local clocks.

Brief description of the figures

• la figure 1 : un schéma simple représentant le principe de l'horodatage distribué d'événements ;
• la figure 2 : le schéma bloc illustrant le principe du procédé selon l'invention ;
• la figure 3 : un exemple de mise en oeuvre du procédé selon l'invention illustrant la durée du mode transitoire induit au moment de la synchronisation d'une horloge locale donnant une heure locale postérieure à l'heure de référence au moment de ladite synchronisation.

Other features and advantages will appear in the following detailed description with reference to the appended drawings which represent:

• the figure 1 : a simple schema representing the principle of distributed timestamp of events;
• the figure 2 : the block diagram illustrating the principle of the method according to the invention;
• the figure 3 an example of implementation of the method according to the invention illustrating the duration of the transient mode induced at the time of synchronization of a local clock giving a local time after the reference time at the time of said synchronization.

Detailed description of at least one embodiment

The invention relates to a distributed system for recording real-time stamped events, as shown in FIG. figure 1 . Such a system comprises a plurality of local clocks whose function is to give the local time stamp time - "LocalTime" on the figure 1 - to time stamp the events to be recorded. These local clocks giving the local time "LocalTime" must be regularly synchronized to a reference clock, giving a reference time Tref, generally GPS time, and the invention relates to the management of this synchronization. The local time "LocalTime" synchronized is communicated to the function "Time Management for timestamp" responsible for deciding the time used to time stamp events detected during an "Event detection cycle". It is within this function that the method according to the invention, called the mechanism of "Time catch up" on the figure 1 , is implemented. After having decided on the time actually used for the timestamp of the events detected, according to the mechanism described in figure 2 , the "Event Detection and Timestamp" function can be fully implemented, outputting said "time stamped events".

The figure 2 is a diagram for describing the operation of the method, and therefore the system, according to the present invention.

After an initialization phase "Init", a synchronization of the local clocks is performed. On the figure 2 "LocalTime" means the local time given by the local clock in question; Tref is the reference time, for example the GPS time given by an SNTP server. After a "Waiting" phase occurs the "Triggering an event detection cycle", ie a new event must be time stamped and recorded by the system. The detection and the timestamp / recording of an event are carried out by the system considered periodically, at a given frequency corresponding to a cycle time, for example equal to 5 ms.

At this stage, the present invention allows improved management of the transition induced by the time reset of the local clock considered. Indeed, the method according to the invention provides for testing whether the newly synchronized local time, "LocalTime" on the figure 2 , is less than or not the last timestamp time used to time stamp the last event recorded before synchronization, the last time stamp being called "LastTimeStamp" on the figure 2 .

If it is verified that the "LocalTime" is lower than "LastTimeStamp", then the time used to time stamp the new event to be recorded, called "Time for timestamp" on the figure 2 , is not equal to said "LocalTime", but is equal to the "LastTimeStamp" increased by one increment step lower than the cycle time, preferably the smallest possible. This increment step can typically be 1 ms.

The operation is repeated as long as the "LocalTime" is lower than the "LastTimeStamp". As soon as the "LocalTime" becomes greater than or equal to the "LastTimeStamp" at the time of the detection of a new event to be timestamped / recorded, the system normally uses the local time "LocalTime" to time stamp the new event and the following events.

By proceeding this way, it is guaranteed that the events to be timestamped and recorded will be in ascending chronological order.

The figure 3 gives a numerical example of implementation of the present invention: the local time given by the local clock considered, "LocalTime" on the figure 3 as on the figure 2 , is initially equal to 100 ms, corresponding to the time used to timestamp a last event - "LastTimeStamp" on the figure 2 - before the synchronization which brings back the local time to 86 ms.

The cycle time is, in this example, equal to 5 ms.

The steps of the process according to the invention described in figure 2 : the synchronized "LocalTime" is initially lower than the "LastTimeStamp", during the detection cycles following the synchronization, the time used to time stamp the events to timestamp / record is equal to the "LastTimeStamp" increased by a step of increment, d 1 ms in the example of the figure 3 .

After four cycles for which the time used for the timestamp is not equal to the local time - or "LocalTime" - real, said "LocalTime" becomes greater than the "LastTimeStamp", and the method according to the invention then provides to restart to use the actual "LocalTime" as the time of time stamping for the time stamp of the following events, at the following cycle times.

In this encrypted example, the duration of the transition induced by the synchronization can be calculated; it is equal to (100 - 86) * 5/4 = 17.5 ms, where 100 ms is the "LastTimeStamp" before synchronization, 86 ms is the reference time used during the synchronization, 5 ms is the cycle time , and 4 is the number of cycles required before the "LocalTime" becomes greater than the "LastTimeStamp".

In summary, the invention makes it possible to manage the synchronization of local clocks on a reference clock in a distributed system of time stamping and recording of timestamped events. The present invention has the advantage of ensuring that the timestamped events are automatically recorded in ascending chronological order, even when the local clocks considered were ahead of the reference clock at the time of synchronization.

It is specified that the present invention covers both the method and the system comprising the means for implementing said method.

Claims (8)

A method of managing synchronization of a distributed time-stamped event recording system at a given frequency corresponding to a cycle time, comprising: - a local clock with a local time of its own; a reference clock having a reference time (Tref), a last time of timestamp (LastTimestamp) being associated with the last record of an event, characterized in that, during a synchronization of said local clock on said reference clock, said clean local time becoming a new local time equal to the reference time (Tref): - if the new synchronized local time is less than the last timestamp time (LastTimestamp), the time used as the timestamp time for the next event record is equal to the last timestamp time plus one step increment. increment less than the cycle time, until the new local time is greater than or equal to said last time stamping time; then, the time used as the time stamp time for the following event records is equal to the new local time; - If the new synchronized local time is greater than or equal to the last timestamp time (LastTimestamp), the time used as the timestamp time for the next event records is equal to the new local time. Method according to claim 1, characterized in that the increment step is one millisecond. Method according to one of the preceding claims, characterized in that the cycle time is equal to five milliseconds. Method according to one of the preceding claims, characterized in that the increment step corresponds to the resolution of the own local clock. System comprising at least one time-stamped event recording device comprising a local clock, said system comprising a reference clock, and means for synchronizing said local clock on said reference clock, characterized in that it comprises means for implementing the method according to any one of claims 1 to 4. The system of claim 5, said system being further connected to a time server of the SNTP type, for Simple Network Time Protocol according to the usual acronym, synchronized to GPS time, that is to say the time given by the GPS satellite navigation system, for Global Positioning System according to the acronym, and the reference clock presenting the GPS time as the reference time (Tref). System according to claim 5, characterized in that it comprises means for receiving GPS messages, that is to say messages transmitted by the GPS satellite navigation system, for Global Positioning System according to the acronym, and means for decoding these GPS messages to extract the GPS time, the reference clock presenting the GPS time as the reference time (Tref). System according to one of claims 5 to 7, comprising a plurality of local clocks.

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